由氨基酸序列预测蛋白质二级结构的进一步研究

本文在工作[1][2]的基础上进一步研究了蛋白质二级结构的经验预测,着重讨论了如何制定预测规则的问题,并将预测工作计算机化.在蛋白质资料库中随机选取了21个蛋白质(3296残基)进行预测,正确率对α螺旋和β折迭分别为84.4%和81.9%.     

金属有机催化剂用于烯烃及其衍生物聚合的新进展

本文着重综述了非ＭＡＯ－茂金属催化体系用于烯烃及其衍生物聚合的新进展,其中包括ＮＣＡ－茂金属催化体系;单组分茂稀土金属催化剂;后过渡金属催化体系。     

初探西洋参须根皂甙提取的新方法

在西洋参须根粉浸泡液中添加适量酵母菌等,恒温发酵。边发酵,边浸提。结果表明：此方法与目前普遍采用的化学方法一样,能提取出西洋参须根中的有效成份皂甙,且发酵液含有１６种氨基酸。     

微波常压下快速合成L－噻唑烷－4－甲酸甲酯

在微波常压反应条件下，用Ｌ－半胱氨酸合成了Ｌ－噻唑烷－４－甲酸甲酯，讨论了微波功率和反应时间对产率的影响．实验表明，微波技术可用于光学活性化合物的合成，并显示出微波合成的简便、安全、快速、产率高的特点．     

用双极性膜电渗析法分离混合氨基酸

为开发新的混合氨基酸分离技术,提出用双极性膜电渗析分离混合氨基酸的方法.在对混合氨基酸溶液中离子成分进行分析的基础上,预测了使用该法的可行性,并通过三室双极性膜电渗析法实验验证了理论计算的结果.对于等电点相差很大的谷氨酸和精氨酸以及等电点相差比较大的谷氨酸和甘氨酸以及精氨酸和甘氨酸两元混合物,可以实现很彻底的分离,得到纯度96%以上的产品,电流密度可以达到5～10 mA·cm-2. 对于等电点相差很小的丝氨酸和脯氨酸,则分离难度较大,电流密度在1 mA·cm-2以下.该法不需使用缓冲溶液,可提高分离过程的效率.     

Isolation,purification and characterization of a new organphosphorus hydrolase OPHC2

A bacterium with the capability of degrading organphosphorus, identified as Pseudomonas pseudoaicaligenes, is isolated from OP-treated soil. The organphosphorus hydrolase OPHC2 from this bacterium has been purified and characterized. OPHC2 has optimum activity for the reaction at 65℃ and pH 9.0 with methyl parathion as a substrate, it also shows good thermal and pH stability. Most metal ions and chemicals have no effect on the activity of OPHC2. The analyses of nucleotide sequence encoding OPHC2 and amino acid sequence of OPHC2 show that there are lower homologies with those of organphosphorus hydrolase reported in GenBank.     

Cloning and roles of goldfish maternal factor β-Catenin cDNA in embryonic development

Interaction between nucleus and cytoplasm has been focused in the field of animal embryonic development, in which study of maternal factors is required positively. β-Catenin, an important maternal factor in early embryogenesis, has been analyzed in its expression pattern and functions in this paper. We have cloned goldfish β-Catenin cDNA gene and compared it with zebrafish β-Catenin cDNA. High homology was found in cDNA and in amino acid sequences between them, 93% (2227/2384 bp) and 98.5% (768/780 aa) respectively. The expression pattern of β-Catenin by in situ hybridization and the roles of β-Catenin on embryonic development by co-injection of anti-sense RNA and reporter gene, EGFP have been investigated in the whole process of goldfish embryonic development. The results suggest that β-Catenin presents dynamic distribution, mainly locates at body axis, dorsal tissues, head and tail structures after being fertilized. The loss of β-Catenin activity would cause serious destruction of embryo in dorsal tissues and in anteroposterior axes, and leads embryos to die before larva get hatched.     

A novel long-chain acyl-derivative of epigallocatechin-3-O-gallate prepared and purified from green tea polyphenols

Lipophilic tea polyphenols (LTP) were prepared by catalytic esterifieation of green tea polyphenols (GRIP) with hexadeeanoyl chloride. A novel long-chain aeyl-derivative of epigalloeateehin-3-o-gallate(EGCG) was first isolated from purification of LTP by high-speed eountereurrent ehromatography (HSCCC)using a solvent system composed of n-hexane-ethyl acetate-methanol-water ( 1 : 1 : 1 : 1, v/v) . The moleeularstructure of the acyl-derivative, Epigallocatechin-3-O-gallate-4‘-O-hexadeeanate , was elucidated by meansof elemental analysis, IR, 1H-NMR and MS spectra.     

杂多酸在酯化反应中的应用

本文阐述了杂多酸(HPA)的结构特征与其催化活性间的关系,讨论了杂多酸在酯化反应中的应用。